Specialized Optical Switches Utilized to Reduce Latency in Switching Between Hardware Devices in Computer Systems and Methods of Use Thereof

1. A system, comprising: at least one switch; wherein the at least one switch comprises: at least one first optical tap, at least one relay, and at least one second optical tap; at least one first server; wherein the at least one first server comprises a first internal clock; wherein the at least one first server is configured to synchronize the first internal clock with a precision time protocol master clock in accordance with a precision time protocol; at least one second server; wherein the at least one second server comprises a second internal clock; wherein the at least one second server is configured to synchronize the second internal clock with the precision time protocol master clock in accordance with the precision time protocol; the precision time protocol master clock; wherein the precision time protocol master clock is configured to enable a time synchronization of the at least one first server and the at least one second server in accordance with the precision time protocol; wherein the at least one first optical tap is configured to: i) receive a first data stream from at least one third server, ii) split the first data stream into a first copy data stream and a second copy data stream, iii) transmit the first copy data stream to the at least one first server, and iv) transmit the second copy data stream to the at least one second server; wherein the at least one relay is configured to: i) receive a second data stream from the at least one first server, wherein the at least one first server has generated the second data stream in response to the first copy data stream; ii) receive a third data stream from the at least one second server, wherein the at least one second server has generated the third data stream in response to: 1) the second copy data stream and 2) at least one faulty indication, identifying that the at least one first server has failed to transmit the second data stream; and iii) transmit a fourth data stream to the at least one second optical tap, wherein the fourth data stream is either the second data stream or the third data stream based on a receipt of a switching indicator by the at least one relay; wherein the at least one second optical tap is configured to: i) receive the fourth data stream, ii) split the fourth data stream into a third copy data stream and a fourth copy data stream, iii) transmit the third copy data stream to the at least one third server, and iv) transmit the fourth copy data stream to the at least one second server; and wherein the second data stream is identical to the third data stream to confirm that one of the second data stream or the third data stream is transmitted to the at least one third server when the at least one first server has failed to transmit the second data stream.

2. The system of claim 1 , wherein the first data stream is an optical data stream.

3. The system of claim 1 , wherein the at least one first optical tap includes at least one of a planar light-wave circuit splitter, a fused biconical taper splitter, or a thin film splitter.

4. The system of claim 1 , wherein the at least one second optical tap includes at least one of a planar light-wave circuit splitter, a fused biconical taper splitter, or a thin film splitter.

5. The system of claim 1 , wherein the precision time protocol master clock is configured to perform the time synchronization periodically at a frequency that is between once per second and one hundred times per second.

6. The system of claim 1 , wherein the first data stream is representative of pricing data relating to at least one price of at least one tradeable object traded on at least one exchange.

7. The system of claim 6 , wherein the at least one first server is configured to determine a first at least one trade to be made based on the pricing data, and wherein the second data stream is representative of the first at least one trade to be made based on the pricing data.

8. The system of claim 7 , wherein the at least one second server is configured to determine a second at least one trade to be made based on the pricing data, the second at least one trade being identical to the first at least one trade, and wherein the third data stream is representative of the second at least one trade to be made based on the pricing data.

9. A method, comprising: providing at least one switch, the at least one switch comprising at least one first optical tap, at least one relay, and at least one second optical tap; providing at least one first server, the at least one first server comprising a first internal clock, wherein the at least one first server is configured to synchronize the first internal clock with a precision time protocol master clock in accordance with a precision time protocol; providing at least one second server, the at least one second server comprising a second internal clock, wherein the at least one second server is configured to synchronize the second internal clock with the precision time protocol master clock in accordance with the precision time protocol; providing the precision time protocol master clock, wherein the precision time protocol master clock is configured to enable a time synchronization of the at least one first server and the at least one second server in accordance with the precision time protocol; operating the at least one first optical tap to: i) receive a first data stream from at least one third server, ii) split the first data stream into a first copy data stream and a second copy data stream, iii) transmit the first copy data stream to the at least one first server, and iv) transmit the second copy data stream to the at least one second server; operating the at least one relay to: i) receive a second data stream from the at least one first server, wherein the at least one first server has generated the second data stream in response to the first copy data stream; ii) receive a third data stream from the at least one second server, wherein the at least one second server has generated the third data stream in response to: 1) the second copy data stream and 2) at least one faulty indication, identifying that the at least one first server has failed to transmit the second data stream; and iii) transmit a fourth data stream to the at least one second optical tap, wherein the fourth data stream is either the second data stream or the third data stream based on a receipt of a switching indicator by the at least one relay; operating the at least one second optical tap to: i) receive the fourth data stream, ii) split the fourth data stream into a third copy data stream and a fourth copy data stream, iii) transmit the third copy data stream to the at least one third server, and iv) transmit the fourth copy data stream to the at least one second server, wherein the second data stream is identical to the third data stream to confirm that one of the second data stream or the third data stream is transmitted to the at least one third server when the at least one first server has failed to transmit the second data stream.

10. The method of claim 9 , wherein the first data stream is an optical data stream.

11. The method of claim 9 , wherein the at least one first optical tap includes at least one of a planar light-wave circuit splitter, a fused biconical taper splitter, or a thin film splitter.

12. The method of claim 9 , wherein the at least one second optical tap includes at least one of a planar light-wave circuit splitter, a fused biconical taper splitter, or a thin film splitter.

13. The method of claim 9 , wherein the precision time protocol master clock is configured to perform the time synchronization periodically at a frequency that is between once per second and one hundred times per second.

14. The method of claim 9 , wherein the first data stream is representative of pricing data relating to at least one price of at least one tradeable object traded on at least one exchange.

15. The method of claim 14 , wherein the at least one first server is configured to determine a first at least one trade to be made based on the pricing data, and wherein the second data stream is representative of the first at least one trade to be made based on the pricing data.

16. The method of claim 15 , wherein the at least one second server is configured to determine a second at least one trade to be made based on the pricing data, the second at least one trade being identical to the first at least one trade, and wherein the third data stream is representative of the second at least one trade to be made based on the pricing data.